Photohydrolysis of methyl bromide and chloropicrin - Journal of

Sep 1, 1981 - Dechlorination of Chloropicrin and 1,3-Dichloropropene by Hydrogen Sulfide Species: Redox and Nucleophilic Substitution Reactions...
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J. Agric. Food Chem. 1981, 29, 1005-1008

constant depending on the rate of loss of residue, and C and t are as previously defined. Applying a linear regression to the data in Table I1 for MB residues a t 2 h after fumigation gives a correlation coefficient of 0.99997, which indicates excellent linearity of residue vs. applied dose. However, the line obtained does not pass through the origin, and consequently the residue is only approximately proportional to the applied dose. LITERATURE CITED Benschoter, C. A. J. Econ. Entomol. 1979,72,401. Berck, B. J. Chromatogr. Sci. 1975,13, 256. Daniels, F.; Alberty, R. A. “Physical Chemistry”;Wiley: New York, 1956;pp 199,200.

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Dennis, N. M.; Eason, G.; Gillenwater, H. B. J.Econ. Entomol. 1972,65,1753. Environmental Protection Agency Fed. Regist. 1977,42 (240), 63134-63161. Hartsell, P. L., USDA-SEA-AR,Stored-ProductsInsects Research Laboratory, Fresno, CA 93727,personal communication, 1980. Heuser, S. G.; Scudamore, K. A. J.Sci. Food Agric. 1969,20,566. King, J. R., USDA-SEA-AR,SubtropicalHorticulture Research Station, Miami, FL 33158,unpublished data, 1980. King, J. R.; von Windeguth, D. L.; Burditt, A. K., Jr. J . Agric. Food Chem. 1980,28,1049. Malone, B. Residue Rev. 1971,38,21. Scudamore, K. A.; Heuser, S. G. Pestic. Sci. 1970,1, 14. Received for review January 27,1981. Accepted June 9,1981.

Photohydrolysis of Methyl Bromide and Chloropicrin Charles E. Castro* and Nao 0. Belser

The rate of hydrolysis of methyl bromide and chloropicrin can be markedly enhanced by light. An -7-fold increase in the rate for methyl bromide results from irradiation with a small pen-ray UV lamp (k, = 2.0 X lo4 s-l). A t least 99.6% of the reaction proceeds quantitatively to methanol, bromide ion, and protons. A trace of methane (